Near-Source Simulation of Strong Ground Motion in Amatrice Downtown Including Site Effects

Near-Source Simulation of Strong Ground Motion in Amatrice Downtown Including Site Effects

On 24 August 2016, a Mw 6.0 earthquake started a damaging seismic sequence in central Italy. The historical center of Amatrice village reached the XI degree (MCS scale) but the high vulnerability alone could not explain the heavy damage. Unfortunately, at the time of the earthquake only AMT station,...

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Bibliographic Details
Published in:Geosciences (Basel) Vol. 11; no. 5; p. 186
Main Authors: Todrani, Alessandro, Cultrera, Giovanna
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-05-2021
Subjects:
Amatrice earthquake
Earth science
Earthquake damage
earthquake simulation
Earthquakes
Ground motion
Historic sites
Morphology
near-source
Noise
Propagation
Seismic activity
seismic sequence
Simulation
site effects
strong ground motion
Topography
Transfer functions
Vulnerability
Italy
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Summary:On 24 August 2016, a Mw 6.0 earthquake started a damaging seismic sequence in central Italy. The historical center of Amatrice village reached the XI degree (MCS scale) but the high vulnerability alone could not explain the heavy damage. Unfortunately, at the time of the earthquake only AMT station, 200 m away from the downtown, recorded the mainshock, whereas tens of temporary stations were installed afterwards. We propose a method to simulate the ground motion affecting Amatrice, using the FFT amplitude recorded at AMT, which has been modified by the standard spectral ratio (SSR) computed at 14 seismic stations in downtown. We tested the procedure by comparing simulations and recordings of two later mainshocks (Mw 5.9 and Mw 6.5), underlining advantages and limits of the technique. The strong motion variability of simulations was related to the proximity of the seismic source, accounted for by the ground motion at AMT, and to the peculiar site effects, described by the transfer function at the sites. The largest amplification characterized the stations close to the NE hill edge and produced simulated values of intensity measures clearly above one standard deviation of the GMM expected for Italy, up to 1.6 g for PGA.
ISSN:2076-3263
2076-3263
DOI:10.3390/geosciences11050186